BACKGROUND OF THE INVENTION
The present invention relates to a lens unit structure adopted for use in an SLR (single lens reflex) type digital camera.
Recently, SLR type digital cameras (hereinafter, referred to as SLR digital cameras) have become widely used. An example of an SLR digital camera is constructed as follows.
The light from an object is incident on a photographing lens system including a plurality of lens groups. The light passed through the photographing lens system is incident on a beam splitter, which splits the incident light into light directed toward a finder optical system, and light directed to an image capturing element such as a CCD (Charge Coupled Device). In particular, in the SLR digital camera which is not a lens-exchangeable one, the photographing lens system and the finder optical system as well as the beam splitter are integrally formed as a lens unit.
In general, the plurality of lens groups are held by respective frame members, which are mounted one by one with the optical axes thereof being made coincide with each other.
In order to assemble the frame members with holding the positional relationship therebetween, a plurality of bosses and corresponding holes for accepting the bosses are formed onto the opponent surfaces of the frame members.
In such a structure, however, position and surface errors of the bosses and holes may easily be accumulated, and the optical axes of the optical elements respectively held by the frame members may not be aligned accurately. Further, assembling of such a lens unit is an exacting work, which requires concentration and is time consuming.
SUMMARY OF THE INVENTION
It is therefore an object of the present invention to provide an improved lens unit structure for an SLR digital camera, with which the lens unit including the photographing optical system and the finder optical system can be assembled relatively easily at a high positioning accuracy.
For the above object, according to this invention, there is provided a lens unit structure for a single lens reflex digital camera, which is provided with a photographing lens block and a finder block. The photographing lens block includes a lens barrel having a plurality of guide shaft members extending in parallel with an optical axis of the photographing lens block, ends of the plurality of guide shafts being secured to the lens barrel, and at least one lens group accommodated in the lens barrel, the at least one lens group being slidably supported by the plurality of guide shaft members, the plurality of guide shaft members preventing the at least one lens group from moving in a direction perpendicular to the optical axis of the photographing lens block. The finder block includes a casing that accommodates a finder optical system, an image capturing element, and a beam splitter, an image receiving surface of the image capturing element being perpendicular to an optical axis of the beam splitter, the beam splitter splitting the light passed through the photographing lens block into light directed to the finder optical system and light directed to the image capturing element, the casing having a plurality of holes respectively receiving the plurality of guide shaft members provided to the lens barrel.
With this structure, the photographing lens block and the finder block can be separately assembled, and then both blocks are easily assembled at high accuracy.
It is preferable that, a positional relationship of an optical axis of the photographing lens block with respect to an optical axis of the finder block is regulated only by the plurality of guide shaft members.
According to another aspect of the invention, there is provided a lens unit structure for a single lens reflex digital camera, comprising an photographing lens block and a finder block. The photographing lens block includes a lens barrel having a first lens group and a plurality of guide shaft members extending in parallel with an optical axis of the first lens group, and at least one lens group accommodated in the lens barrel, the at least one lens group being supported by the plurality of guide shaft members, the at least one lens group being movable only in a direction parallel to the optical axis. Further, the finder block includes a casing that accommodates a finder optical system, an image capturing element, and a beam splitter, an image receiving surface of the image capturing element being perpendicular to an optical axis of the beam splitter, the beam splitter splitting the light passed through the photographing lens block into light directed to the finder optical system and light directed to the image capturing element, the casing having a plurality of holes respectively receiving the plurality of guide shaft members provided to the lens barrel.
With the above structure, the lens unit including the photographing optical system and the finder optical system can be assembled relatively easily at a high positioning accuracy.
Optionally, a position of the at least one lens group so that an optical axis of the at least one lens coincides with the optical axis of the first lens group may be regulated only by the plurality of guide shaft members.
In particular, an optical alignment of the photographing lens block and the finder block is regulated by inserting the plurality of guide shaft members in the plurality of holes, respectively.
Further optionally, the at least one lens group accommodated in the lens barrel includes a focusing lens.
In a particular case, the focusing lens may be held by a focusing lens frame, and a plurality of through holes, in which the plurality of guide shaft members are slidably inserted, are formed on the focusing lens frame.
Still optionally, at least one lens group accommodated in the lens barrel may further include a zoom lens.
In this case, the focusing lens may be held by a zoom lens frame, and a plurality of through holes, in which the plurality of guide shaft members are slidably inserted, are formed on the focusing lens frame.
In a particular case, the plurality of guide shaft members consists of a pair of shaft members.
In this case, the pair of shaft members may be arranged opposite to each other with respect to the optical axis of the first lens group.
Still optionally, the first lens group may be an objective lens group of the photographing lens.
DESCRIPTION OF THE ACCOMPANYING DRAWINGS
FIG. 1 is an exploded perspective view of a lens unit, which includes a photographing lens block and a finder block, for a single lens reflex camera according to an embodiment of the invention;
FIG. 2 shows an arrangement of optical elements of a finder optical system;
FIG. 3 is a plan view of a coupling member formed on a focusing lens frame; and
FIG. 4 is a perspective rear view of the photographing lens block.
DESCRIPTION OF THE EMBODIMENT
Referring to the accompanying drawings, an SLR digital camera according to an embodiment of the invention will be described.
FIG. 1 is an exploded perspective view of a lens unit 1 for a single lens reflex camera according to an embodiment of the invention. As shown in FIG. 1, the lens unit 1 includes a photographing lens block 18 and a finder block 11. The photographing lens block 18 and the finder block 11 are separately assembled, and then both blocks 11 and 18 are assembled into the lens unit 1.
The photographing lens block 18 includes an objective lens 13 attached to a lens barrel 15, a focusing lens 2 and a zoom lens 6, which are movably supported inside the lens barrel 15.
The objective lens 13 receives the light from an object and converges the same. The light passed through the objective lens 13 further passes through, along an optical axis 14, the focusing lens 2 and the zoom lens 6, and is emerged from a window 9 c formed on a lens barrel cover 9. Then, the light emerged from the window 9 c is incident on a beam splitter 10, which is accommodated in the finder block 11.
FIG. 2 shows an arrangement of optical elements accommodated in the finder block 11. The finder block 11 has a casing 11 c which accommodates the above-mentioned beam splitter 10 which splits the incident light into two components: a first component directed to a finder optical system 20; and a second component directed to an imaging device 12.
As shown in FIG. 2, the first component split by the beam splitter 10 forms an image on a focusing glass 21. The light from the focusing glass 21 is collected by a collective lens 22, and is directed to a mirror 23. The light reflected by the mirror 23 passes through a relaying lens 24, reflected by mirrors 25 and 26, and forms an erected image on a second image plane 27. The erected image is viewed through an eyepiece lens 16 in a magnified fashion.
As shown in FIG. 1, the lens barrel 15 is formed with a pair of inner holes 13 a and 13 b oppositely arranged about and extended along the optical axis 14. In the inner holes 13 a and 13 b, one ends of a pair of guide shafts 3 and 4 are fitted, respectively.
The focusing lens 2 is held by a ring-shaped frame 2 a (which will be referred to as a focusing lens frame). A coupling member 5, which is elongated in a direction parallel with the optical axis 14, is integrally formed on the outer circumferential surface of the focusing lens frame 2 a.
FIG. 3 shows a plan view of the coupling member 5. The coupling member 5 is provided with a pair of guide holes 5 c and 5 d arranged to be spaced apart in the direction parallel to the optical axis 14. The guide shaft 4 is slidably fitted in guide holes 5 c and 5 d. It should be noted that the pair of guide holes 5 c and 5 d may be replaced with a through hole extending in a direction parallel to the optical axis 14.
The focusing lens frame 2 a is further provided with a boss member 17 on the outer-circumferential surface thereof, at a position opposing to the coupling member 5 with respect to the optical axis 14. The boss member 17 is formed with a guide hole 17 a, to which the guide shaft 3 is slidably inserted.
In order to allow manufacturing errors, the guide hole 17 a may be formed as a rounded-rectangular shape, which is elongated along a line connecting the optical axis 14 and the center of the guide hole 17 a. In this case, arc portions are located at both ends of the rectangular shape, a radius of curvature of each arc portion is substantially the same as the radius of the guide shaft 3, and a width (i.e., a distance between the longer sides) of the rectangular shape is substantially the same as the diameter of the guide shaft 3.
Further, the coupling member 5 is provided with a pair of lug members 5 a and 5 b (see FIG. 3), between which an operating member of a focusing lens driving mechanism (not shown) is engaged. By moving the operating member in a direction parallel to the optical axis 14, the focusing lens 2 is reciprocally moved along the optical axis 14 with guided by the guide shafts 3 and 4.
Since the guide shafts 3 and 4 are secured to the lens barrel 15, and the frame 2 a is movable only in the direction of the optical axis 14, the positional relationship of the frame 2 a with respect to the lens barrel 15 in a direction perpendicular to the optical axis of the lens barrel 15 is fixed. It should be noted that the holes 5 c, 5 d and 17 a should be formed such that, when the focusing lens frame 2 a is supported by the guide shafts 3 and 4, the optical axis of the focusing lens 2 coincides with the optical axis of the objective lens 13.
Similarly, the zoom lens 6 is held by a ring-shaped frame 61 (which will be referred to as zoom lens frame), which is formed with a coupling member 7 on the outer circumferential surface thereof. The coupling member 7 is formed with a through hole (guide hole) 7 a, to which the guide shaft 3 is slidably inserted. It should be noted that the coupling member 7 is located on the guide shaft 3 side in order to avoid the conflict thereof with respect to the coupling member 5 when the focusing lens frame 2 a and the zoom lens frame 61 approach.
The zoom lens frame 61 is further formed with a boss member 8 on the outer-circumferential surface thereof, at the position opposite to the coupling member 7 with respect to the optical axis of the zoom lens 6. A through hole (guide hole) 8 a is formed on the boss member 8. The guide shaft 4 is slidably inserted in the guide hole 8 a.
In order to allow manufacturing errors, the guide hole 8 a may be formed as a rounded-rectangular shape, which is elongated along a line connecting the optical axis 14 and the center of the guide hole 8 a. In this case, arc portions are located at both ends of the rectangular shape, a radius of curvature of each arc portion is substantially the same as the radius of the guide shaft 4, and a width (i.e., a distance between the longer sides) of the rectangular shape is substantially the same as the diameter of the guide shaft 4.
The coupling member 7 is engaged with an operating member of a zoom lens driving mechanism (not shown) so that the zoom lens frame 61 is reciprocally movable along the optical axis 14 with guided by the guide shafts 3 and 4.
Since the guide shafts 3 and 4 are secured to the lens barrel 15, and the frame 61 is movable only in the direction of the optical axis 14, the positional relationship of the frame 61 with respect to the lens barrel 15 in a direction perpendicular to the optical axis of the lens barrel 15 is fixed. It should be noted that the through holes 7 a and 8 a should be formed such that, when the frame 61 is supported by the guide shafts 3 and 4, the optical axis of the zoom lens 6 coincides with the optical axis of the objective lens 13.
The lens barrel cover 9 is provided with a pair of through- holes 9 a and 9 b, through which the guide shafts 4 and 3 are inserted.
The photographing lens block 18 is assembled as follows.
Firstly, the pair of guide shafts 3 and 4 are inserted through the guide hole 17 a, and the pair of guide holes 5 c and 5 d of the focusing lens frame 2 a, respectively. The ends of the guide shafts 3 and 4, which are protruded from the focusing lens frame 2 a, are fitted into the inner holes 13 a and 13 b. Then, the focusing lens frame 2 a is accommodated inside the lens barrel 15.
Thereafter, the zoom lens frame 61 is accommodated in the lens barrel 15 by inserting the guide shafts 3 and 4 through the guide holes 7 a and 8 a, respectively. Then, the guide shafts 3 and 4 inserted through the holes 9 b and 9 a of the lens barrel cover 9, respectively, and the lens barrel cover 9 is attached and secured to the lens barrel 15 by means of screws (not shown).
FIG. 4 is a perspective rear view of the photographing lens block 18 as assembled. As shown in FIG. 4, when the lens barrel cover 9 has been attached to the lens barrel 15, the guide shafts 3 and 4 are slightly protruded from the lens barrel cover 9 through the holes 9 b and 9 a, respectively.
Since the positions of the lens barrel 15, the focusing lens frame 2 a, the zoom lens frame 61 and the lens barrel cover 9 are regulated by the common guide shafts 3 and 4, which extend in the direction parallel to the optical axis 14, the photographing lens block 18 can be assembled at a high positional accuracy, and the objective lens 13, the focusing lens 2 and the zoom lens 6 can be precisely aligned to have the common optical axis 14.
Next, assembling of the photographing lens block 18 and the finder block 11 will be described.
The imaging device 12 is secured to the predetermined position of the finder block 11, on a rear side of the beam splitter 10 such that the image receiving surface of the imaging device 12 is perpendicular to the optical axis of the beam splitter 10 (see FIGS. 1 and 2), by screws or the like.
The finder block 11 is provided with a pair of protruding members 110 and 111, which are protruded in a direction perpendicular to the optical axis 14. The protruding members 110 and 111 respectively having through- holes 110 a and 111 a, which extend in a direction parallel to the optical axis 14, at the positions corresponding to the through- holes 9 b and 9 a of the lens barrel cover 9, or the positions corresponding to the guide shafts 4 and 3 protruded from the lens barrel cover 9, respectively.
When the finder block 11 is coupled to the photographing lens block 18, the guide shafts 4 and 3 protruded out of the photographing lens block 18 (see FIG. 4) are inserted through the through- holes 110 a and 111 a of the finder block 11. By inserting the guide shafts 4 and 3 through the through- holes 110 a and 111 a, the positional relationship between the finder block 11 and the photographing lens block 18 in the direction perpendicular to the optical axis 14 is fixed. Then, the finder block 11 is abutted against the photographing lens block 18 and secured to the lens barrel cover 9 thereof by means of screws (not shown) which are inserted in screw holes 111 b, 121 b, 131 b (see FIG. 1) and 141 b, 151 b and 161 b (see FIG. 4). Thereby, the finder block 11 is securely coupled to the photographing lens block 18.
As described above, according to the lens unit 1 described above, the pair of guide shafts 3 and 4 are used for adjusting the positional relationship of the focusing lens 2 and the zoom lens 6 with respect to the optical axis 14, and for guiding the reciprocal movements (i.e., focusing and zooming) of the focusing lens and the zoom lens. Further, the guide shafts 3 and 4 are used for adjusting the positional relationship, in the direction perpendicular to the optical axis 14, between the separately assembled photographing lens block 18 and the finder block 11.
In the above-described embodiments, the photographing lens block is described to include both the focusing lens and the zoom lens. The invention is not limited to this structure, and even if the photographing lens includes only one movable lens (i.e., focusing lens), the invention can be applied. Further, even in a case where the photographing lens includes more than two lenses which are to be guided by and movable along the guide shafts, the invention can be applied.
The present disclosure relates to the subject matter contained in Japanese Patent Application No. 2000-021183, filed on Jan. 31, 2000, which is expressly incorporated herein by reference in its entirety.